Treatise on Materials Science and Technology, Volume 2; Volume 19, Part 1 |
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Page 47
Figure 17 shows that increasing shot size increases the depth of the compressive
zone , while Fig . 18 reveals that increased hardness of the base alloy results in a
higher peak stress . Such variables and others have been studied extensively ...
Figure 17 shows that increasing shot size increases the depth of the compressive
zone , while Fig . 18 reveals that increased hardness of the base alloy results in a
higher peak stress . Such variables and others have been studied extensively ...
Page 166
0 DEPTH FROM SURFACE ( um ) - > Fig . 5 . Linear plot of excitation profiles (
proportional to transmitted excitation light intensity ) with depth from an outer
surface in GaAs at 300 K for Kr + - laser wavelengths , a = 6471 A ( - ) , 5682 A ( -
: - ) ...
0 DEPTH FROM SURFACE ( um ) - > Fig . 5 . Linear plot of excitation profiles (
proportional to transmitted excitation light intensity ) with depth from an outer
surface in GaAs at 300 K for Kr + - laser wavelengths , a = 6471 A ( - ) , 5682 A ( -
: - ) ...
Page 174
High energy electrons also have an effective excitation depth ( Murata et al . ,
1971 ) , which in practice cannot easily be reduced to just a few tenths of a
micrometer as , e . g . , for optical excitation in GaAs ( see above ) . A spatial
depth ...
High energy electrons also have an effective excitation depth ( Murata et al . ,
1971 ) , which in practice cannot easily be reduced to just a few tenths of a
micrometer as , e . g . , for optical excitation in GaAs ( see above ) . A spatial
depth ...
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Contents
Principles of XRay Stress Measurement | 4 |
Control of Accuracy and Precision | 25 |
Applications | 45 |
Copyright | |
15 other sections not shown
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Common terms and phrases
absorption addition allow alloy angle Appl applications atoms band bandgap beam broadening cause coefficients components composition concentration constant cooling cross section crystal curve defects dependent deposits depth determined developed diffraction diffusion direction discussed dislocation distribution effect electron elements employed energy error et al example excitation experimental factor field function give given grain heat important impurities increasing intensity iron laser lattice layer less magnetic material measurements Metals method Mössbauer needed neighbor observed obtained occur optical peak phase photoluminescence Phys plane position possible powder problem produce properties range rays recently recombination region relative residual stress sample semiconductors shift shown Society solid spacing specimen spectra spectrum sputtering steel strain structure studies substrate surface target technique temperature term thickness values variation X-ray
Bibliographic information
| Title | Treatise on Materials Science and Technology, Volume 2; Volume 19, Part 1 Part 2 of Experimental Methods, Herbert Herman Treatise on Materials Science and Technology, Herbert Herman |
| Editor | Herbert Herman |
| Edition | illustrated |
| Publisher | Academic Press, 1972 |
| Original from | the University of Virginia |
| Digitized | 21 Aug 2009 |
| ISBN | 0123418194, 9780123418197 |
| Length | 256 pages |
| Export Citation | BiBTeX EndNote RefMan |